/*
 * Copyright (C) 2021 Teluu Inc. (http://www.teluu.com)
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */


/* This file is the implementation of Android Oboe audio device. */

#include <pjmedia-audiodev/audiodev_imp.h>
#include <pj/assert.h>
#include <pj/lock.h>
#include <pj/log.h>
#include <pj/os.h>
#include <pjmedia/circbuf.h>
#include <pjmedia/errno.h>
#include <pjmedia/event.h>

#if defined(PJMEDIA_AUDIO_DEV_HAS_OBOE) &&  PJMEDIA_AUDIO_DEV_HAS_OBOE != 0

#define THIS_FILE       "oboe_dev.cpp"
#define DRIVER_NAME     "Oboe"

#include <jni.h>
#include <semaphore.h>
#include <android/log.h>
#include <oboe/Oboe.h>

#include <atomic>


/* Device info */
typedef struct aud_dev_info
{
    pjmedia_aud_dev_info         info;          /**< Base info          */
    int                          id;            /**< Original dev ID    */
} aud_dev_info;


/* Oboe factory */
struct oboe_aud_factory
{
    pjmedia_aud_dev_factory      base;
    pj_pool_factory             *pf;
    pj_pool_t                   *pool;

    pj_pool_t                   *dev_pool;      /**< Device list pool  */
    unsigned                     dev_count;     /**< Device count      */
    aud_dev_info                *dev_info;      /**< Device info list  */
};

class MyOboeEngine;


/*
 * Sound stream descriptor.
 * This struct may be used for both unidirectional or bidirectional sound
 * streams.
 */
struct oboe_aud_stream
{
    pjmedia_aud_stream  base;
    pj_pool_t          *pool;
    pj_str_t            name;
    pjmedia_dir         dir;
    pjmedia_aud_param   param;
    struct oboe_aud_factory *f;

    int                 bytes_per_sample;
    pj_uint32_t         samples_per_sec;
    unsigned            samples_per_frame;
    int                 channel_count;
    void               *user_data;
    pj_bool_t           running;

    /* Capture/record */
    MyOboeEngine       *rec_engine;
    pjmedia_aud_rec_cb  rec_cb;

    /* Playback */
    MyOboeEngine       *play_engine;
    pjmedia_aud_play_cb play_cb;
};

/* Factory prototypes */
static pj_status_t oboe_init(pjmedia_aud_dev_factory *f);
static pj_status_t oboe_destroy(pjmedia_aud_dev_factory *f);
static pj_status_t oboe_refresh(pjmedia_aud_dev_factory *f);
static unsigned oboe_get_dev_count(pjmedia_aud_dev_factory *f);
static pj_status_t oboe_get_dev_info(pjmedia_aud_dev_factory *f,
                                        unsigned index,
                                        pjmedia_aud_dev_info *info);
static pj_status_t oboe_default_param(pjmedia_aud_dev_factory *f,
                                         unsigned index,
                                         pjmedia_aud_param *param);
static pj_status_t oboe_create_stream(pjmedia_aud_dev_factory *f,
                                         const pjmedia_aud_param *param,
                                         pjmedia_aud_rec_cb rec_cb,
                                         pjmedia_aud_play_cb play_cb,
                                         void *user_data,
                                         pjmedia_aud_stream **p_aud_strm);

/* Stream prototypes */
static pj_status_t strm_get_param(pjmedia_aud_stream *strm,
                                  pjmedia_aud_param *param);
static pj_status_t strm_get_cap(pjmedia_aud_stream *strm,
                                pjmedia_aud_dev_cap cap,
                                void *value);
static pj_status_t strm_set_cap(pjmedia_aud_stream *strm,
                                pjmedia_aud_dev_cap cap,
                                const void *value);
static pj_status_t strm_start(pjmedia_aud_stream *strm);
static pj_status_t strm_stop(pjmedia_aud_stream *strm);
static pj_status_t strm_destroy(pjmedia_aud_stream *strm);

static pjmedia_aud_dev_factory_op oboe_op =
{
    &oboe_init,
    &oboe_destroy,
    &oboe_get_dev_count,
    &oboe_get_dev_info,
    &oboe_default_param,
    &oboe_create_stream,
    &oboe_refresh
};

static pjmedia_aud_stream_op oboe_strm_op =
{
    &strm_get_param,
    &strm_get_cap,
    &strm_set_cap,
    &strm_start,
    &strm_stop,
    &strm_destroy
};


/*
 * Init Android Oboe audio driver.
 */
#ifdef __cplusplus
extern "C"{
#endif
pjmedia_aud_dev_factory* pjmedia_android_oboe_factory(pj_pool_factory *pf)
{
    struct oboe_aud_factory *f;
    pj_pool_t *pool;

    pool = pj_pool_create(pf, "oboe", 256, 256, NULL);
    f = PJ_POOL_ZALLOC_T(pool, struct oboe_aud_factory);
    f->pf = pf;
    f->pool = pool;
    f->base.op = &oboe_op;
    f->dev_pool = pj_pool_create(pf, "oboe_dev", 256, 256, NULL);

    return &f->base;
}
#ifdef __cplusplus
}
#endif


/* JNI stuff for enumerating audio devices. This will invoke Java code
 * in pjmedia/src/pjmedia-audiodev/android/PjAudioDevInfo.java.
 */
#define PJ_AUDDEV_INFO_CLASS_PATH       "org/pjsip/PjAudioDevInfo"

static struct jni_objs_t
{
    struct {
        jclass           cls;
        jmethodID        m_get_cnt;
        jmethodID        m_get_info;
        jmethodID        m_refresh;
        jfieldID         f_id;
        jfieldID         f_name;
        jfieldID         f_direction;
        jfieldID         f_sup_clockrates;
        jfieldID         f_sup_channels;
    } dev_info;

    struct {
        jclass           cls;
        jmethodID        m_current;
        jmethodID        m_get_app;
    } activity_thread;

} jobjs;


#define GET_CLASS(class_path, class_name, cls) \
    cls = jni_env->FindClass(class_path); \
    if (cls == NULL || jni_env->ExceptionCheck()) { \
        jni_env->ExceptionClear(); \
        PJ_LOG(3, (THIS_FILE, "[JNI] Unable to find class '" \
                              class_name "'")); \
        status = PJMEDIA_EAUD_SYSERR; \
        goto on_return; \
    } else { \
        jclass tmp = cls; \
        cls = (jclass)jni_env->NewGlobalRef(tmp); \
        jni_env->DeleteLocalRef(tmp); \
        if (cls == NULL) { \
            PJ_LOG(3, (THIS_FILE, "[JNI] Unable to get global ref for " \
                                  "class '" class_name "'")); \
            status = PJMEDIA_EAUD_SYSERR; \
            goto on_return; \
        } \
    }
#define GET_METHOD_ID(cls, class_name, method_name, signature, id) \
    id = jni_env->GetMethodID(cls, method_name, signature); \
    if (id == 0) { \
        PJ_LOG(3, (THIS_FILE, "[JNI] Unable to find method '" method_name \
                              "' in class '" class_name "'")); \
        status = PJMEDIA_EAUD_SYSERR; \
        goto on_return; \
    }
#define GET_SMETHOD_ID(cls, class_name, method_name, signature, id) \
    id = jni_env->GetStaticMethodID(cls, method_name, signature); \
    if (id == 0) { \
        PJ_LOG(3, (THIS_FILE, "[JNI] Unable to find static method '" \
                              method_name "' in class '" class_name "'")); \
        status = PJMEDIA_EAUD_SYSERR; \
        goto on_return; \
    }
#define GET_FIELD_ID(cls, class_name, field_name, signature, id) \
    id = jni_env->GetFieldID(cls, field_name, signature); \
    if (id == 0) { \
        PJ_LOG(3, (THIS_FILE, "[JNI] Unable to find field '" field_name \
                              "' in class '" class_name "'")); \
        status = PJMEDIA_EAUD_SYSERR; \
        goto on_return; \
    }

/* Get Java object IDs (via FindClass, GetMethodID, GetFieldID, etc).
 * Note that this function should be called from library-loader thread,
 * otherwise FindClass, etc, may fail, see:
 * http://developer.android.com/training/articles/perf-jni.html#faq_FindClass
 */
static pj_status_t jni_init_ids()
{
    JNIEnv *jni_env;
    pj_status_t status = PJ_SUCCESS;
    pj_bool_t with_attach = pj_jni_attach_jvm((void **)&jni_env);

    /* PjAudioDevInfo class info */
    GET_CLASS(PJ_AUDDEV_INFO_CLASS_PATH, "PjAudioDevInfo", jobjs.dev_info.cls);
    GET_SMETHOD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "GetCount", "()I",
                   jobjs.dev_info.m_get_cnt);
    GET_SMETHOD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "GetInfo",
                   "(I)L" PJ_AUDDEV_INFO_CLASS_PATH ";",
                   jobjs.dev_info.m_get_info);
    GET_SMETHOD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "RefreshDevices",
                   "(Landroid/content/Context;)V",
                   jobjs.dev_info.m_refresh);
    GET_FIELD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "id", "I",
                 jobjs.dev_info.f_id);
    GET_FIELD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "name", "Ljava/lang/String;",
                 jobjs.dev_info.f_name);
    GET_FIELD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "direction", "I",
                 jobjs.dev_info.f_direction);
    GET_FIELD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "supportedClockRates", "[I",
                 jobjs.dev_info.f_sup_clockrates);
    GET_FIELD_ID(jobjs.dev_info.cls, "PjAudioDevInfo", "supportedChannelCounts", "[I",
                 jobjs.dev_info.f_sup_channels);

    /* ActivityThread class info */
    GET_CLASS("android/app/ActivityThread", "ActivityThread",
              jobjs.activity_thread.cls);
    GET_SMETHOD_ID(jobjs.activity_thread.cls, "ActivityThread",
                   "currentActivityThread", "()Landroid/app/ActivityThread;",
                   jobjs.activity_thread.m_current);
    GET_METHOD_ID(jobjs.activity_thread.cls, "ActivityThread",
                   "getApplication", "()Landroid/app/Application;",
                   jobjs.activity_thread.m_get_app);

on_return:
    pj_jni_detach_jvm(with_attach);
    return status;
}

#undef GET_CLASS_ID
#undef GET_METHOD_ID
#undef GET_SMETHOD_ID
#undef GET_FIELD_ID

static void jni_deinit_ids()
{
    JNIEnv *jni_env;
    pj_bool_t with_attach = pj_jni_attach_jvm((void **)&jni_env);

    if (jobjs.dev_info.cls) {
        jni_env->DeleteGlobalRef(jobjs.dev_info.cls);
        jobjs.dev_info.cls = NULL;
    }

    if (jobjs.activity_thread.cls) {
        jni_env->DeleteGlobalRef(jobjs.activity_thread.cls);
        jobjs.activity_thread.cls = NULL;
    }

    pj_jni_detach_jvm(with_attach);
}

static jobject get_global_context(JNIEnv *jni_env)
{
    jobject context = NULL;
    jobject cur_at = jni_env->CallStaticObjectMethod(
                                        jobjs.activity_thread.cls,
                                        jobjs.activity_thread.m_current);
    if (cur_at==NULL)
        return NULL;

    context = jni_env->CallObjectMethod(cur_at,
                                        jobjs.activity_thread.m_get_app);
    return context;
}


/* API: Init factory */
static pj_status_t oboe_init(pjmedia_aud_dev_factory *f)
{
    pj_status_t status;

    status = jni_init_ids();
    if (status != PJ_SUCCESS)
        return status;

    status = oboe_refresh(f);
    if (status != PJ_SUCCESS)
        return status;

    return PJ_SUCCESS;
}


/* API: refresh the list of devices */
static pj_status_t oboe_refresh(pjmedia_aud_dev_factory *ff)
{
    struct oboe_aud_factory *f = (struct oboe_aud_factory*)ff;
    JNIEnv *jni_env;
    pj_bool_t with_attach;
    int i, dev_count = 0;
    pj_status_t status = PJ_SUCCESS;

    /* Clean up device info and pool */
    f->dev_count = 0;
    pj_pool_reset(f->dev_pool);

    with_attach = pj_jni_attach_jvm((void **)&jni_env);

    jobject context = get_global_context(jni_env);
    if (context == NULL) {
        PJ_LOG(3, (THIS_FILE, "Failed to get context"));
        status = PJMEDIA_EAUD_SYSERR;
        goto on_return;
    }

    /* PjAudioDevInfo::RefreshDevices(Context) */
    jni_env->CallStaticVoidMethod(jobjs.dev_info.cls,
                                  jobjs.dev_info.m_refresh, context);

    /* dev_count = PjAudioDevInfo::GetCount() */
    dev_count = jni_env->CallStaticIntMethod(jobjs.dev_info.cls,
                                             jobjs.dev_info.m_get_cnt);
    if (dev_count < 0) {
        PJ_LOG(3, (THIS_FILE, "Failed to get camera count"));
        status = PJMEDIA_EAUD_SYSERR;
        goto on_return;
    }

    /* Start querying device info */
    f->dev_info = (aud_dev_info*)
                  pj_pool_calloc(f->dev_pool, dev_count,
                                 sizeof(aud_dev_info));

    for (i = 0; i < dev_count; i++) {
        aud_dev_info *adi = &f->dev_info[f->dev_count];
        pjmedia_aud_dev_info *base_adi = &adi->info;
        jobject jdev_info;
        jint jinttmp;

        /* jdev_info = PjAudioDevInfo::GetInfo(i) */
        jdev_info = jni_env->CallStaticObjectMethod(
                                            jobjs.dev_info.cls,
                                            jobjs.dev_info.m_get_info,
                                            i);
        if (jdev_info == NULL)
            continue;

        /* Get device ID, direction, etc */
        adi->id = jni_env->GetIntField(jdev_info, jobjs.dev_info.f_id);
        jinttmp = jni_env->GetIntField(jdev_info, jobjs.dev_info.f_direction);
        base_adi->input_count = (jinttmp & PJMEDIA_DIR_CAPTURE);
        base_adi->output_count = (jinttmp & PJMEDIA_DIR_PLAYBACK);
        base_adi->caps = 0;

        /* Get name info */
        jstring jstrtmp = (jstring)
                          jni_env->GetObjectField(jdev_info,
                                                  jobjs.dev_info.f_name);
        const char *strtmp = jni_env->GetStringUTFChars(jstrtmp, NULL);
        pj_ansi_strxcpy(base_adi->name, strtmp, sizeof(base_adi->name));
        pj_ansi_strxcpy(base_adi->driver, DRIVER_NAME,
                        sizeof(base_adi->driver));

        f->dev_count++;

    on_skip_dev:
        jni_env->DeleteLocalRef(jdev_info);
    }

    PJ_LOG(4, (THIS_FILE,
               "Oboe audio device initialized with %d device(s):",
               f->dev_count));

    for (i = 0; i < f->dev_count; i++) {
        aud_dev_info *adi = &f->dev_info[i];
        PJ_LOG(4, (THIS_FILE, "%2d (native id=%d): %s (%s%s%s)",
                   i, adi->id, adi->info.name,
                   adi->info.input_count?"in":"",
                   adi->info.input_count && adi->info.output_count?"+":"",
                   adi->info.output_count?"out":""
                ));
    }

on_return:
    if (context)
        jni_env->DeleteLocalRef(context);

    pj_jni_detach_jvm(with_attach);
    return status;
}


/* API: Destroy factory */
static pj_status_t oboe_destroy(pjmedia_aud_dev_factory *f)
{
    struct oboe_aud_factory *pa = (struct oboe_aud_factory*)f;
    pj_pool_t *pool;

    PJ_LOG(4, (THIS_FILE, "Oboe sound library shutting down.."));

    jni_deinit_ids();

    pool = pa->pool;
    pa->pool = NULL;
    pj_pool_release(pool);

    return PJ_SUCCESS;
}

/* API: Get device count. */
static unsigned oboe_get_dev_count(pjmedia_aud_dev_factory *ff)
{
    struct oboe_aud_factory *f = (struct oboe_aud_factory*)ff;
    return f->dev_count;
}

/* API: Get device info. */
static pj_status_t oboe_get_dev_info(pjmedia_aud_dev_factory *ff,
                                        unsigned index,
                                        pjmedia_aud_dev_info *info)
{
    struct oboe_aud_factory *f = (struct oboe_aud_factory*)ff;

    PJ_ASSERT_RETURN(index < f->dev_count, PJMEDIA_EAUD_INVDEV);

    pj_memcpy(info, &f->dev_info[index].info, sizeof(*info));

    return PJ_SUCCESS;
}

/* API: fill in with default parameter. */
static pj_status_t oboe_default_param(pjmedia_aud_dev_factory *ff,
                                         unsigned index,
                                         pjmedia_aud_param *param)
{
    struct oboe_aud_factory *f = (struct oboe_aud_factory*)ff;
    pjmedia_aud_dev_info adi;
    pj_status_t status;

    PJ_ASSERT_RETURN(index < f->dev_count, PJMEDIA_EAUD_INVDEV);

    status = oboe_get_dev_info(ff, index, &adi);
    if (status != PJ_SUCCESS)
        return status;

    pj_bzero(param, sizeof(*param));
    if (adi.input_count && adi.output_count) {
        param->dir = PJMEDIA_DIR_CAPTURE_PLAYBACK;
        param->rec_id = index;
        param->play_id = index;
    } else if (adi.input_count) {
        param->dir = PJMEDIA_DIR_CAPTURE;
        param->rec_id = index;
        param->play_id = PJMEDIA_AUD_INVALID_DEV;
    } else if (adi.output_count) {
        param->dir = PJMEDIA_DIR_PLAYBACK;
        param->play_id = index;
        param->rec_id = PJMEDIA_AUD_INVALID_DEV;
    } else {
        return PJMEDIA_EAUD_INVDEV;
    }

    param->clock_rate = adi.default_samples_per_sec;
    param->channel_count = 1;
    param->samples_per_frame = adi.default_samples_per_sec * 20 / 1000;
    param->bits_per_sample = 16;
    param->input_latency_ms = PJMEDIA_SND_DEFAULT_REC_LATENCY;
    param->output_latency_ms = PJMEDIA_SND_DEFAULT_PLAY_LATENCY;

    return PJ_SUCCESS;
}


/* Atomic queue (ring buffer) for single consumer & single producer.
 *
 * Producer invokes 'put(frame)' to put a frame to the back of the queue and
 * consumer invokes 'get(frame)' to get a frame from the head of the queue.
 *
 * For producer, there is write pointer 'ptrWrite' that will be incremented
 * every time a frame is queued to the back of the queue. If the queue is
 * almost full (the write pointer is right before the read pointer) the
 * producer will forcefully discard the oldest frame in the head of the
 * queue by incrementing read pointer.
 *
 * For consumer, there is read pointer 'ptrRead' that will be incremented
 * every time a frame is fetched from the head of the queue, only if the
 * pointer is not modified by producer (in case of queue full).
 */
class AtomicQueue {
public:

    AtomicQueue(unsigned max_frame_cnt, unsigned frame_size,
                const char* name_= "") :
        maxFrameCnt(max_frame_cnt), frameSize(frame_size),
        ptrWrite(0), ptrRead(0),
        buffer(NULL), name(name_)
    {
        buffer = new char[maxFrameCnt * frameSize];

        /* Surpress warning when debugging log is disabled */
        PJ_UNUSED_ARG(name);
    }

    ~AtomicQueue() {
        delete [] buffer;
    }

    /* Get a frame from the head of the queue */
    bool get(void* frame) {
        if (ptrRead == ptrWrite)
            return false;

        unsigned cur_ptr = ptrRead;
        void *p = &buffer[cur_ptr * frameSize];
        pj_memcpy(frame, p, frameSize);
        inc_ptr_read_if_not_yet(cur_ptr);

        //__android_log_print(ANDROID_LOG_INFO, name,
        //                    "GET: ptrRead=%d ptrWrite=%d\n",
        //                    ptrRead.load(), ptrWrite.load());
        return true;
    }

    /* Put a frame to the back of the queue */
    void put(void* frame) {
        unsigned cur_ptr = ptrWrite;
        void *p = &buffer[cur_ptr * frameSize];
        pj_memcpy(p, frame, frameSize);
        unsigned next_ptr = inc_ptr_write(cur_ptr);

        /* Increment read pointer if next write is overlapping (next_ptr == read ptr) */
        unsigned next_read_ptr = (next_ptr == maxFrameCnt-1)? 0 : (next_ptr+1);
        ptrRead.compare_exchange_strong(next_ptr, next_read_ptr);

        //__android_log_print(ANDROID_LOG_INFO, name,
        //                    "PUT: ptrRead=%d ptrWrite=%d\n",
        //                    ptrRead.load(), ptrWrite.load());
    }

private:

    unsigned maxFrameCnt;
    unsigned frameSize;
    std::atomic<unsigned> ptrWrite;
    std::atomic<unsigned> ptrRead;
    char *buffer;
    const char *name;

    /* Increment read pointer, only if producer not incemented it already.
     * Producer may increment the read pointer if the write pointer is
     * right before the read pointer (buffer almost full).
     */
    bool inc_ptr_read_if_not_yet(unsigned old_ptr) {
        unsigned new_ptr = (old_ptr == maxFrameCnt-1)? 0 : (old_ptr+1);
        return ptrRead.compare_exchange_strong(old_ptr, new_ptr);
    }

    /* Increment write pointer */
    unsigned inc_ptr_write(unsigned old_ptr) {
        unsigned new_ptr = (old_ptr == maxFrameCnt-1)? 0 : (old_ptr+1);
        if (ptrWrite.compare_exchange_strong(old_ptr, new_ptr))
            return new_ptr;

        /* Should never happen */
        pj_assert(!"There is more than one producer!");
        return old_ptr;
    }

    AtomicQueue() {}
};


/* Interface to Oboe */
class MyOboeEngine : oboe::AudioStreamDataCallback,
                     oboe::AudioStreamErrorCallback
{
public:
    MyOboeEngine(struct oboe_aud_stream *stream_, pjmedia_dir dir_)
    : stream(stream_), dir(dir_), oboe_stream(NULL), dir_st(NULL),
      thread(NULL), thread_quit(PJ_TRUE), queue(NULL),
      err_thread_registered(false), mutex(NULL)
    {
        pj_assert(dir == PJMEDIA_DIR_CAPTURE || dir == PJMEDIA_DIR_PLAYBACK);
        dir_st = (dir == PJMEDIA_DIR_CAPTURE? "capture":"playback");
        pj_set_timestamp32(&ts, 0, 0);
    }

    pj_status_t Start() {
        pj_status_t status;

        if (!mutex) {
            status = pj_mutex_create_recursive(stream->pool, "oboe", &mutex);
            if (status != PJ_SUCCESS) {
                PJ_PERROR(3,(THIS_FILE, status,
                             "Oboe stream %s failed creating mutex", dir_st));
                return status;
            }
        }

        int dev_id = 0;
        oboe::AudioStreamBuilder sb;

        pj_mutex_lock(mutex);

        if (oboe_stream) {
            pj_mutex_unlock(mutex);
            return PJ_SUCCESS;
        }

        if (dir == PJMEDIA_DIR_CAPTURE) {
            sb.setDirection(oboe::Direction::Input);
            if (stream->param.rec_id >= 0 &&
                stream->param.rec_id < stream->f->dev_count)
            {
                dev_id = stream->f->dev_info[stream->param.rec_id].id;
            }
        } else {
            sb.setDirection(oboe::Direction::Output);
            if (stream->param.play_id >= 0 &&
                stream->param.play_id < stream->f->dev_count)
            {
                dev_id = stream->f->dev_info[stream->param.play_id].id;
            }
        }
        sb.setDeviceId(dev_id);
        sb.setSampleRate(stream->param.clock_rate);
        sb.setChannelCount(stream->param.channel_count);
        sb.setPerformanceMode(oboe::PerformanceMode::LowLatency);
        sb.setFormat(oboe::AudioFormat::I16);
        sb.setUsage(oboe::Usage::VoiceCommunication);
        sb.setContentType(oboe::ContentType::Speech);
        sb.setDataCallback(this);
        sb.setErrorCallback(this);
        sb.setFramesPerDataCallback(stream->param.samples_per_frame /
                                    stream->param.channel_count);

        /* Somehow mic does not work on Samsung S10 (get no error and
         * low latency, but callback is never invoked) if sample rate
         * conversion is specified. If it is not specified (default is None),
         * mic does not get low latency on, but it works.
         */
        if (dir == PJMEDIA_DIR_PLAYBACK) {
            sb.setSampleRateConversionQuality(
                                oboe::SampleRateConversionQuality::High);

            /* Also if mic is Exclusive, it won't reopen after
             * plug/unplug headset (on Samsung S10).
             */
            sb.setSharingMode(oboe::SharingMode::Exclusive);
        }

        /* Create queue */
        unsigned latency = (dir == PJMEDIA_DIR_CAPTURE?
                            stream->param.input_latency_ms :
                            stream->param.output_latency_ms);
        unsigned queue_size = latency * stream->param.clock_rate *
                              stream->param.channel_count / 1000 /
                              stream->param.samples_per_frame;

        /* Normalize queue size to be in range of 3-10 frames */
        if (queue_size < 3) queue_size = 3;
        if (queue_size > 10) queue_size = 10;

        PJ_LOG(3,(THIS_FILE,
                  "Oboe stream %s queue size=%d frames (latency=%d ms)",
                  dir_st, queue_size, latency));

        queue = new AtomicQueue(queue_size, stream->param.samples_per_frame*2,
                                dir_st);

        /* Create semaphore */
        if (sem_init(&sem, 0, 0) != 0) {
            pj_mutex_unlock(mutex);
            return PJ_RETURN_OS_ERROR(pj_get_native_os_error());
        }

        /* Create thread */
        thread_quit = PJ_FALSE;
        status = pj_thread_create(stream->pool, "android_oboe",
                                  &AudioThread, this, 0, 0, &thread);
        if (status != PJ_SUCCESS) {
            pj_mutex_unlock(mutex);
            return status;
        }

        /* Open & start oboe stream */
        oboe::Result result = sb.openStream(&oboe_stream);
        if (result != oboe::Result::OK) {
            PJ_LOG(3,(THIS_FILE,
                      "Oboe stream %s open failed (err=%d/%s)",
                      dir_st, result, oboe::convertToText(result)));
            pj_mutex_unlock(mutex);
            return PJMEDIA_EAUD_SYSERR;
        }

        result = oboe_stream->requestStart();
        if (result != oboe::Result::OK) {
            PJ_LOG(3,(THIS_FILE,
                      "Oboe stream %s start failed (err=%d/%s)",
                      dir_st, result, oboe::convertToText(result)));
            pj_mutex_unlock(mutex);
            return PJMEDIA_EAUD_SYSERR;
        }

        PJ_LOG(4, (THIS_FILE,
                "Oboe stream %s started, "
                "id=%d, clock_rate=%d, channel_count=%d, "
                "samples_per_frame=%d (%dms), "
                "API=%d/%s, exclusive=%s, low latency=%s, "
                "size per callback=%d, buffer capacity=%d, burst size=%d",
                dir_st,
                stream->param.play_id,
                stream->param.clock_rate,
                stream->param.channel_count,
                stream->param.samples_per_frame,
                stream->param.samples_per_frame * 1000 /
                       stream->param.clock_rate,
                oboe_stream->getAudioApi(),
                (oboe_stream->usesAAudio()? "AAudio":"other"),
                (oboe_stream->getSharingMode()==
                        oboe::SharingMode::Exclusive? "yes":"no"),
                (oboe_stream->getPerformanceMode()==
                        oboe::PerformanceMode::LowLatency? "yes":"no"),
                oboe_stream->getFramesPerDataCallback()*
                        stream->param.channel_count,
                oboe_stream->getBufferCapacityInFrames(),
                oboe_stream->getFramesPerBurst()
                ));

        pj_mutex_unlock(mutex);
        return PJ_SUCCESS;
    }

    void Stop() {
        /* Just return if it has not been started */
        if (!mutex || thread_quit) {
            PJ_LOG(5, (THIS_FILE, "Oboe stream %s stop request when "
                       "already stopped.", dir_st));
            return;
        }

        PJ_LOG(5, (THIS_FILE, "Oboe stream %s stop requested.", dir_st));

        pj_mutex_lock(mutex);

        if (thread) {
            PJ_LOG(5,(THIS_FILE, "Oboe %s stopping thread", dir_st));
            thread_quit = PJ_TRUE;
            sem_post(&sem);
            pj_thread_join(thread);
            pj_thread_destroy(thread);
            thread = NULL;
        }

        if (oboe_stream) {
            PJ_LOG(5,(THIS_FILE, "Oboe %s closing stream", dir_st));
            oboe_stream->close();
            delete oboe_stream;
            oboe_stream = NULL;
        }

        if (queue) {
            PJ_LOG(5,(THIS_FILE, "Oboe %s deleting queue", dir_st));
            delete queue;
            queue = NULL;
        }

        sem_destroy(&sem);

        pj_mutex_unlock(mutex);

        PJ_LOG(4, (THIS_FILE, "Oboe stream %s stopped.", dir_st));
    }

    /* Oboe callback, here let's just use Android native mutex & semaphore
     * so we don't need to register the thread to PJLIB.
     */
    oboe::DataCallbackResult onAudioReady(oboe::AudioStream *oboeStream,
                                          void *audioData,
                                          int32_t numFrames)
    {
        if (dir == PJMEDIA_DIR_CAPTURE) {
            /* Put the audio frame to queue */
            queue->put(audioData);
        } else {
            /* Get audio frame from queue */
            if (!queue->get(audioData)) {
                pj_bzero(audioData, stream->param.samples_per_frame*2);
                __android_log_write(ANDROID_LOG_WARN, THIS_FILE,
                        "Oboe playback got an empty queue");
            }
        }

        sem_post(&sem);

        return (thread_quit? oboe::DataCallbackResult::Stop :
                             oboe::DataCallbackResult::Continue);
    }

    void onErrorAfterClose(oboe::AudioStream *oboeStream, oboe::Result result)
    {
        __android_log_print(ANDROID_LOG_INFO, THIS_FILE,
                            "Oboe %s got onErrorAfterClose(%d)",
                            dir_st, result);

        /* Register callback thread */
        if (!err_thread_registered || !pj_thread_is_registered())
        {
            pj_thread_t* tmp_thread;
            pj_bzero(err_thread_desc, sizeof(pj_thread_desc));
            pj_thread_register("oboe_err_thread", err_thread_desc,
                               &tmp_thread);
            err_thread_registered = true;
        }

        /* Just try to restart */
        pj_mutex_lock(mutex);

        /* Make sure stop request has not been made */
        if (!thread_quit) {
            pj_status_t status;

            PJ_LOG(3,(THIS_FILE,
                      "Oboe stream %s error (%d/%s), "
                      "trying to restart stream..",
                      dir_st, result, oboe::convertToText(result)));

            Stop();
            status = Start();

            if (status != PJ_SUCCESS) {
                pjmedia_event e;

                PJ_PERROR(3,(THIS_FILE, status, "Oboe stream restart failed"));

                /* Broadcast Oboe error */
                pjmedia_event_init(&e, PJMEDIA_EVENT_AUD_DEV_ERROR, &ts,
                                   &stream->base);
                e.data.aud_dev_err.dir = dir;
                e.data.aud_dev_err.status = status;
                e.data.aud_dev_err.id = (dir == PJMEDIA_DIR_PLAYBACK)?
                                        stream->param.play_id :
                                        stream->param.rec_id;

                pjmedia_event_publish(NULL, &stream->base, &e,
                                      PJMEDIA_EVENT_PUBLISH_DEFAULT);
            }
        }

        pj_mutex_unlock(mutex);
    }

    ~MyOboeEngine() {
        /* Oboe should have been stopped before destroying the engine.
         * As stopping it here (below) may cause undefined behaviour when
         * there is race condition against restart in onErrorAfterClose().
         */
        pj_assert(thread_quit == PJ_TRUE);

        /* Forcefully stopping Oboe anyway */
        Stop();

        /* Try to trigger context switch in case onErrorAfterClose() is
         * waiting for mutex.
         */
        pj_thread_sleep(1);

        if (mutex)
            pj_mutex_destroy(mutex);
    }

private:

    static int AudioThread(void *arg) {
        MyOboeEngine *this_ = (MyOboeEngine*)arg;
        struct oboe_aud_stream *stream = this_->stream;
        pj_int16_t *tmp_buf;
        unsigned ts_inc;
        pj_status_t status;

        /* Try to bump up the thread priority */
        enum {
            THREAD_PRIORITY_AUDIO = -16,
            THREAD_PRIORITY_URGENT_AUDIO = -19
        };
        status = pj_thread_set_prio(NULL, THREAD_PRIORITY_URGENT_AUDIO);
        if (status != PJ_SUCCESS) {
            PJ_PERROR(3,(THIS_FILE, status,
                         "Warning: Oboe %s failed increasing thread priority",
                         this_->dir_st));
        }

        tmp_buf = new pj_int16_t[this_->stream->param.samples_per_frame]();
        ts_inc = stream->param.samples_per_frame/stream->param.channel_count;

        /* Queue a silent frame to playback buffer */
        if (this_->dir == PJMEDIA_DIR_PLAYBACK) {
            this_->queue->put(tmp_buf);
        }

        while (1) {
            sem_wait(&this_->sem);
            if (this_->thread_quit)
                break;

            if (this_->dir == PJMEDIA_DIR_CAPTURE) {
                unsigned cnt = 0;
                bool stop_stream = false;

                /* Read audio frames from Oboe */
                while (this_->queue->get(tmp_buf)) {
                    /* Send audio frame to app via callback rec_cb() */
                    pjmedia_frame frame;
                    frame.type = PJMEDIA_FRAME_TYPE_AUDIO;
                    frame.size =  stream->param.samples_per_frame * 2;
                    frame.bit_info = 0;
                    frame.buf = (void *)tmp_buf;
                    frame.timestamp = this_->ts;
                    status = (*stream->rec_cb)(stream->user_data, &frame);
                    if (status != PJ_SUCCESS) {
                        /* App wants to stop audio dev stream */
                        stop_stream = true;
                        break;
                    }

                    /* Increment timestamp */
                    pj_add_timestamp32(&this_->ts, ts_inc);
                    ++cnt;
                }

                if (stop_stream)
                    break;

                /* Print log for debugging purpose */
                if (cnt == 0) {
                    PJ_LOG(5,(THIS_FILE, "Oboe %s got an empty queue",
                              this_->dir_st));
                } else if (cnt > 1) {
                    PJ_LOG(5,(THIS_FILE, "Oboe %s got a burst of %d frames",
                              this_->dir_st, cnt));
                }
            } else {
                /* Get audio frame from app via callback play_cb() */
                pjmedia_frame frame;
                frame.type = PJMEDIA_FRAME_TYPE_AUDIO;
                frame.size =  stream->param.samples_per_frame * 2;
                frame.bit_info = 0;
                frame.buf = (void *)tmp_buf;
                frame.timestamp = this_->ts;
                status = (*stream->play_cb)(stream->user_data, &frame);

                /* Send audio frame to Oboe */
                if (status == PJ_SUCCESS) {
                    this_->queue->put(tmp_buf);
                } else {
                    /* App wants to stop audio dev stream */
                    break;
                }

                /* Increment timestamp */
                pj_add_timestamp32(&this_->ts, ts_inc);
            }
        }

        delete [] tmp_buf;

        PJ_LOG(5,(THIS_FILE, "Oboe %s thread stopped", this_->dir_st));
        return 0;
    }

private:
    struct oboe_aud_stream      *stream;
    pjmedia_dir                  dir;
    oboe::AudioStream           *oboe_stream;
    const char                  *dir_st;
    pj_thread_t                 *thread;
    volatile pj_bool_t           thread_quit;
    sem_t                        sem;
    AtomicQueue                 *queue;
    pj_timestamp                 ts;
    bool                         err_thread_registered;
    pj_thread_desc               err_thread_desc;
    pj_mutex_t                  *mutex;

};


/* API: create stream */
static pj_status_t oboe_create_stream(pjmedia_aud_dev_factory *f,
                                      const pjmedia_aud_param *param,
                                      pjmedia_aud_rec_cb rec_cb,
                                      pjmedia_aud_play_cb play_cb,
                                      void *user_data,
                                      pjmedia_aud_stream **p_aud_strm)
{
    struct oboe_aud_factory *pa = (struct oboe_aud_factory*)f;
    pj_pool_t *pool;
    struct oboe_aud_stream *stream;
    pj_status_t status = PJ_SUCCESS;

    PJ_ASSERT_RETURN(param->channel_count >= 1 && param->channel_count <= 2,
                     PJ_EINVAL);
    PJ_ASSERT_RETURN(param->bits_per_sample==8 || param->bits_per_sample==16,
                     PJ_EINVAL);
    PJ_ASSERT_RETURN(play_cb && rec_cb && p_aud_strm, PJ_EINVAL);

    pool = pj_pool_create(pa->pf, "oboestrm", 1024, 1024, NULL);
    if (!pool)
        return PJ_ENOMEM;

    PJ_LOG(4, (THIS_FILE, "Creating Oboe stream"));

    stream = PJ_POOL_ZALLOC_T(pool, struct oboe_aud_stream);
    stream->pool = pool;
    stream->f = pa;
    pj_strdup2_with_null(pool, &stream->name, "Oboe stream");
    stream->dir = param->dir;
    pj_memcpy(&stream->param, param, sizeof(*param));
    stream->user_data = user_data;
    stream->rec_cb = rec_cb;
    stream->play_cb = play_cb;

    if (param->dir & PJMEDIA_DIR_CAPTURE) {
        stream->rec_engine = new MyOboeEngine(stream, PJMEDIA_DIR_CAPTURE);
        if (!stream->rec_engine) {
            status = PJ_ENOMEM;
            goto on_error;
        }
    }

    if (stream->dir & PJMEDIA_DIR_PLAYBACK) {
        stream->play_engine = new MyOboeEngine(stream, PJMEDIA_DIR_PLAYBACK);
        if (!stream->play_engine) {
            status = PJ_ENOMEM;
            goto on_error;
        }
    }

    /* Done */
    stream->base.op = &oboe_strm_op;
    *p_aud_strm = &stream->base;

    return PJ_SUCCESS;

on_error:
    strm_destroy(&stream->base);
    return status;
}

/* API: Get stream parameters */
static pj_status_t strm_get_param(pjmedia_aud_stream *s,
                                  pjmedia_aud_param *pi)
{
    struct oboe_aud_stream *strm = (struct oboe_aud_stream*)s;
    PJ_ASSERT_RETURN(strm && pi, PJ_EINVAL);
    pj_memcpy(pi, &strm->param, sizeof(*pi));

    return PJ_SUCCESS;
}

/* API: get capability */
static pj_status_t strm_get_cap(pjmedia_aud_stream *s,
                                pjmedia_aud_dev_cap cap,
                                void *pval)
{
    struct oboe_aud_stream *strm = (struct oboe_aud_stream*)s;
    pj_status_t status = PJMEDIA_EAUD_INVCAP;

    PJ_UNUSED_ARG(strm);

    PJ_ASSERT_RETURN(s && pval, PJ_EINVAL);

    return status;
}

/* API: set capability */
static pj_status_t strm_set_cap(pjmedia_aud_stream *s,
                                pjmedia_aud_dev_cap cap,
                                const void *value)
{
    struct oboe_aud_stream *strm = (struct oboe_aud_stream*)s;

    PJ_UNUSED_ARG(strm);

    PJ_ASSERT_RETURN(s && value, PJ_EINVAL);

    return PJMEDIA_EAUD_INVCAP;
}

/* API: start stream. */
static pj_status_t strm_start(pjmedia_aud_stream *s)
{
    struct oboe_aud_stream *stream = (struct oboe_aud_stream*)s;
    pj_status_t status;

    if (stream->running)
        return PJ_SUCCESS;

    if (stream->rec_engine) {
        status = stream->rec_engine->Start();
        if (status != PJ_SUCCESS)
            goto on_error;
    }
    if (stream->play_engine) {
        status = stream->play_engine->Start();
        if (status != PJ_SUCCESS)
            goto on_error;
    }

    stream->running = PJ_TRUE;
    PJ_LOG(4, (THIS_FILE, "Oboe stream started"));

    return PJ_SUCCESS;

on_error:
    if (stream->rec_engine)
        stream->rec_engine->Stop();
    if (stream->play_engine)
        stream->play_engine->Stop();

    PJ_LOG(4, (THIS_FILE, "Failed starting Oboe stream"));

    return status;
}

/* API: stop stream. */
static pj_status_t strm_stop(pjmedia_aud_stream *s)
{
    struct oboe_aud_stream *stream = (struct oboe_aud_stream*)s;

    if (!stream->running)
        return PJ_SUCCESS;

    stream->running = PJ_FALSE;

    if (stream->rec_engine)
        stream->rec_engine->Stop();
    if (stream->play_engine)
        stream->play_engine->Stop();

    PJ_LOG(4,(THIS_FILE, "Oboe stream stopped"));

    return PJ_SUCCESS;
}

/* API: destroy stream. */
static pj_status_t strm_destroy(pjmedia_aud_stream *s)
{
    struct oboe_aud_stream *stream = (struct oboe_aud_stream*)s;

    PJ_LOG(4,(THIS_FILE, "Destroying Oboe stream..."));

    /* Stop the stream */
    strm_stop(s);

    if (stream->rec_engine) {
        delete stream->rec_engine;
        stream->rec_engine = NULL;
    }
    if (stream->play_engine) {
        delete stream->play_engine;
        stream->play_engine = NULL;
    }

    pj_pool_release(stream->pool);
    PJ_LOG(4, (THIS_FILE, "Oboe stream destroyed"));

    return PJ_SUCCESS;
}

#endif  /* PJMEDIA_AUDIO_DEV_HAS_OBOE */
